Infineon-RF Discretes Selection Guide 2016_BC-v01_00-EN

RF discretes
Selection guide
Infrastructure
www.infineon.com/rf
Bluetooth
Contents
Introduction RF discretes3
RF transistors5
RF transistors – 7th generation6
RF transistors – 8th generation7
Medium-power amplifiers8
RF transistors – product portfolio9
PIN diodes12
Schottky diodes14
RF diodes portfolio by package16
Infineon support for RF discretes17
Cross reference list18
2
Introduction RF discretes
Robust, flexible, small and reliable devices for complementary wireless solutions
As society becomes ever more mobile, 24/7 universal network
availability and connectivity will play a big role in our future.
Data traffic in mobile systems and infrastructure will
continue to increase tremendously and by 2020 there will
be 50.1 billion units of expected connected devices and
data rates will reach 1 Gbps through 5G deployment,
because people will continue to expand the role of mobile
data in their everyday life. Multiple devices connected
to one another will be used to post, share and stream content, with videos making up the bulk of this traffic.
As a part of this constant increase the growing of access
points under the form of small cells, infotainment and
navigation assistance in automotive for instance will play a
major role in tomorrow’s communications. Granting stable
and reliable wireless reception and transmission at multiple or specific bands will enable users to access the net
through devices equipped with wireless network interface,
while roaming within the range of fixed Access Points (AP)
or a public cell.
and interference immunity enhancement, and making
receiving and transmitting signals more stable and reliable
››Versatility: With regard to product portfolio availability,
we outdo our competitors by a factor of 2 and provide our
customers with the necessary versatility during design-in
by offering a wide choice of different packages, conventional SOTs or miniaturized TSLPs, and device features
››Supply security: We provide competitive lead times of
≤ 6 weeks, while ensuring the ability to handle demand
upswings with two dedicated FEs and two BEs. Our commitment to customers’ shipment dates and supply performance always exceeds industry standards by 2 percent,
i.e. 97 percent instead of 95 percent
››Quality and reliability: Our field failure rates are on average < 0.1 PPM, providing the quality standards for which
Infineon is renowned throughout the semiconductor
industry
››Design-in and sales support: We support our customers
with a worldwide field application engineering and sales
team, providing a professional and flexible design-in
service
98.3%
96.3%
97.2%
98.7%
98.7%
98.8%
98.1%
98.4%
95.0%
100%
98.8%
Infineon provides with the broadest RF discretes
portfolio for complementary wireless
97.2%
Customer Shipment Date (CSD) performance
on average ≥ 97%
97.3%
Last but not least, we lead innovation and have a proven
ability to flexibly support our customers in fragmented and
rapidly developing markets.
96.4%
Our products stand for
››Performance: Our 8th gen. RF transistors deliver the best NF
available on the market – 0.6 dB as measured in the application – delivering an improvement in system sensitivity
160
95%
Industry
standard
140
120
Number of products count
124
100
80
90%
62
60
40
31
2016-04
2016-03
2016-02
2016-01
2015-12
2015-11
2015-10
2015-09
2015-08
2015-07
2015-06
2015-05
80%
2015-04
20
0
Infineon
21
10
Competitor N Competitor T Competitor R Competitor S
The following pages provide guidance in selecting suitable products for particular applications.
3
4
RF transistors
For over a decade, Infineon Technologies have paved the
way in all radio frequency segments, with RF transistors
providing an outstanding RF performance, superior signal
quality and robustness – all this at a highly attractive price.
while also providing higher robustness given the ESD
protection, strong design reliability and the option of integrating dense analog circuitry and digital control on the
same mixed-signal IC. Not only does this allow wireless
equipment manufacturers to add more functionality onto
devices where space is a constraint, but it is also available
at a competitive price, while offering the ultimate in quality and manufacturing efficiency.
Silicon-germanium (SiGe) based on B9 technology benefits
from in-house process builds and years of experience in
high-volume SiGe:C bipolar technology, which has been in
mass production since 2002.
B9 comes in different variants, but the 7th and 8th generations – each with its own optimization for specific application areas – are our focus series.
Noise Figure (NFmin)
High
B9-based product serie deliver an RF performance comparable to GaAs in terms of linearity and noise figures;
General-purpose LNAs
st
1 – 3rd Gen.
fT (max) = 6–8 GHz
NFmin = 1.4–2.1 dB1)
4th Gen.
Noise
2)
fT (max) = 25 GHz
NFmin = 1.1 dB1)
Very low noise
th
5 Gen.
2)
Low
fT (max) = 29 GHz
NFmin = 0.9 dB1)
6th Gen.
fT (max) = 40 GHz
NFmin = 0.7 dB1)
1) As measured in the application
2) Available with ESD for improved robustness
Low
Frequency (fT (max) in GHz)
Ultra low noise
2)
th
7 Gen.
2)
fT (max) = 44 GHz
NFmin = 0.6 dB1)
8th Gen.
2)
fT (max) = 80 GHz
NF min = 0.5 dB1)
High
5
RF transistors – 7th generation
Ease of use for complementary wireless connectivity
Infineon’s 7th generation RF transistor family is an easyto-use series of discrete Heterojunction Bipolar Transistors
(HBT) which is suitable as a single- and dual-band LowNoise Amplifier (LNA) solution for a vast range of WiFi con­
nectivity applications.
capacitance in order to enhance high-frequency characteristics. Furthermore, they allow engineers to increase the
RF link budget and Signal-to-Noise Ratio (SNR) of their AP
routers and mobile stations when wider coverage areas are
needed and especially when a higher order modulation
scheme, such as 256 Quadrature Amplitude Modulation
(QAM), is used. They offer a high throughput where a more
stringent SNR for both the AP and client is required.
This series of devices combines a 44 GHz f T silicon-germa­
nium:carbide (SiGe:C) B7HF process with advanced device
geometry engineering conceived to reduce the parasitic
Key features
Technical benefits
Customer benefits
Ease of use RF performance
››High transition frequency f T = 45 GHz
››High gain (19 dB) and NF level (0.65 dB)
››High linearity OP1dB +8.5 dBm and OIP3
+19 dBm at 2.4 GHz at low current consumption of 13 mA
››High maximum RF input power
››1.5 kV HBM ESD robustness
››Broad frequency range:
››Unmatched general purpose device for
from 450 MHz to 12 GHz
››Reduced power consumption
››Device suitability under input signal
power-stress
2.4
40
2.2
f = 3.5 GHz
f = 2.4 GHz
f = 1.9 GHz
f = 1.5 GHz
f = 0.9 GHz
f = 0.45 GHz
f = 10 GHz
2.0
1.8
1.4
0.9 GHz
1.5 GHz
1.9 GHz
2.4 GHz
3.5 GHz
25
1.0
20
5.5 GHz
15
0.8
0.6
10 GHz
10
0.4
5
0.2
0
5
10
15
20
25
IC [mA]
Infineon’s 7th generation general-purpose transistors offer
RF engineers an outstanding performance. With noise
figures of as low as 0.45 dB in sub-GHz range and of 0.9 dB
at 5.5 GHz, this transistor series functions as a low-noise
amplifier and provides improved system sensitivity in wireless communication and broadcasting systems.
6
0.45 GHz
30
f = 5.5 GHz
1.2
0.15 GHz
35
Gmax [dB]
NFmin [dB]
1.6
0
high flexibility in vast frequency range
››Energy savings and extended battery life
››Improved high input power robustness
0
0
5
10
15
20
25 30
IC [mA]
35
40
45
50
55
With Gmax of more than 10 dB at 10 GHz, Infineon’s 7th generation product portfolio can also be used as a gain block for
buffer or driver amplifiers, or as a mixer or VCO for frequencies higher than 10 GHz.
RF transistors – 8th generation
Best-in-class performance for WiFi connectivity
The BFx840x product family is a series of discrete Heterojunction Bipolar Transistors (HBT) addressing dual- and fixedfrequency Low-Noise Amplifier (LNA) solutions for high-performance WiFi connectivity applications. It combines an
80 GHz f T silicon-germanium:carbide (SiGe:C) B9HF process
and adopts dedicated device geometry reducing the parasitic capacitance between substrate and transistor degrades
high-frequency characteristics and ultimately improved.
8th generation RF transistors allow engineers to increase the
RF link budget and Signal-to-Noise Ratio (SNR) of their AP
routers and mobile stations when wider coverage areas are
needed mostly or when a higher order modulation scheme
is used, such as in emerging very high throughput wireless
specifications like 256 Quadrature Amplitude Modulation
(QAM) in IEEE 802.11ac, which has more stringent SNR
requirements for both the AP client.
Best-in-class 8th generation RF transistors: NF and Gmax SiGe competitor comparison
0.8
Best in class
30
25
Gain [dB]
NF [dB]
0.7
-15%
Best in class
0.6
+17%
20
15
10
5
0.5
BPx740
series
BPx840
series
0
Comp. N
BPx740
series
BPx840
series
Comp. N
8th generation RF transistors come with an improved BiC in relation to NF and power gain Gmax compared to previous generations and closest SiGe competitors.
Block diagram
SPDT switch
Antenna
2.4 / 5 GHz
2.4 GHz LNA
Rxg
2.4 GHz PA
Power detector
SPDT switch
ESD
diode
SPDT switch
Low-Noise Amplifiers (LNA) are key components required
to increase the system sensitivity and extend the max.
connecting distance for WiFi applications. Their primary
purpose involves delivering a superior performance where
losses of the whole RF front end become critical due to long
routing paths, for instance in WiFi architectures with 4 x 4
MIMO or 8 x 8 MIMO functions.
WiFi
Transceiver
5 GHz LNA
Rxg
5 GHz PA
Power detector
Txg
Txg
Infineon’s 8th generation RF SiGe Bipolar transistors act as
an LNA, delivering the lowest Noise Figure (NF) of 0.6 dB at
5.5 GHz, and the highest gain thanks to their high frequency
(f T) and superior linearity compared to other solutions
on the market. This outstanding performance delivers an
improvement in system sensitivity and interference immunity enhancement, helping engineers to design high-performance WiFi applications at an attractive price.
7
Medium-power amplifiers
Infrastructure
Infineon’s first generation
The BFP780 and BFQ790 are Infineon’s new generalpurpose high-gain driver amplifiers based on Infineon’s
cost-effective Silicon Germanium (SiGe) technology.
Optimized for power gain and addressing a broad range of
wireless applications, they are a new addition to the
existing RF product portfolio.
Suitable for commercial and industrial wireless infrastructure ­– such as 3G/4G, set-top boxes and CATV, along
with indoor and outdoor wireless access points – these
40
IC
30
20
10
-10
-25 -20 -15 -10
-5
275
265
260
PAE
0
280
270
POut
G
The emitter-base diode design provides the BFP780 and
BFQ790 with high ruggedness even at high maximum RF
input power, whereas the silicon substrate conductivity and
low thermal resistance of the package make the devices
thermally resistant, facilitating high dissipated power values during operation.
Gmax [dB]
IP1dB
IC [mA]
POut [dBm], gain [dB], PAE [%]
50
single-stage driver amplifiers provide high linearity and
high gain for use at frequencies up to 3.0 GHz, while also
ensuring great flexibility in designs where high linearity is a
determining factor in component selection.
255
0
5
10 15
250
32
30
28
26
24
22
20
18
16
14
12
0.45 GHz
0.90 GHz
1.80 GHz
2.60 GHz
3.50 GHz
0
20
40
60
80
100
120
IC [mA]
PIn [dBm]
POut, gain, IC, PAE vs. PIn at VCE = 5 V,
ICq = 250 mA, f = 2.6 GHz, ZI = ZOpt
Maximum power gain Gmax vs. IC
at VCE = 5 V, f = parameter
Block diagram
LNA
Duplexer
ESD
diode
PA
Driver
Transceiver
BFP780
BFQ790
Driver amplifiers, also known as high linear gain blocks, are
an important functional block in RF transceiver systems.
The final stage of the transmitter chain in the transceiver
system, Power Amplifier (PA), requires a certain input
power level to deliver to the required output power, which
usually cannot be delivered by the transceiver IC directly.
8
In these cases, external one- or two-stage driver amplifiers
are required. Driver amplifiers provide the high gain linear
signal amplification from the transceiver IC to the PA. They
are generally operated in linear class-A mode to enable simultaneous high linearity and high gain, thereby keeping the
spurious signals generated by the PA down to a minimum.
RF transistors – product portfolio
RF transistors 7th generation
Product name
OPN
IC (max.)
[mA]
NFmin (typ)
[dB]
Gmax (typ)
[dB]
OIP3
[dBm]
OP1dB
[dBm]
Package
BFP720
BFP720H6327XTSA1
20
0.5
26.0
20.5
6.0
SOT343
BFP720F
BFP720FH6327XTSA1
20
0.5
26.0
20.5
6.0
TSFP-4-1
BFP720ESD
BFP720ESDH6327XTSA1
25
0.6
27.0
22.0
6.5
SOT343
BFP720FESD
BFP720FESDH6327XTSA1
25
0.6
27.0
22.0
7.0
TSFP-4-1
BFP740
BFP740H6327XTSA1
45
0.5
27.0
25.0
11.0
SOT343
BFP740F
BFP740FH6327XTSA1 45
0.5
27.5
25.0
11.0
TSFP-4-1
BFP740ESD
BFP740ESDH6327XTSA1
35
0.6
27.0
25.0
10.0
SOT343
BFP740FESD
BFP840FESDH6327XTSA1
35
0.6
27.0
24.5
10.0
TSFP-4-1
BFR740L3RH
BFR740L3RHE6327XTSA1
30
0.5
24.5
25.0
11.0
TSLP-3-9
BFP760
BFP760H6327XTSA1
70
0.5
25.0
31.5
14.5
SOT343
RF transistors 8th generation
Product name
OPN
NFmin (typ)
[dB]
Gmax (typ)
[dB]
OIP3
[dBm]
OP1dB
[dBm]
Package
BFP843
BFP843H6327XTSA1
0.95
22.5
24.0
7.0
SOT343
BFP843F
BFP843FH6327XTSA1
0.90
23.5
23.5
7.0
TSFP-4-1
BFR843EL3
BFR843EL3E6327XTSA1
0.95
24.0
21.0
7.0
TSLP-3-9
BFP840ESD
BFP840ESDH6327XTSA1
0.60
27.0
21.0
4.5
SOT343
BFP840FESD
BFP840FESDH6327XTSA1
0.55
27.5
21.0
4.5
TSFP-4-1
BFP842ESD
BFP842ESDH6327XTSA1
0.40
23.5
24.5
8.0
SOT343
BFR840L3RHESD
BFR840L3RHESDE6327XTSA1
0.50
26.5
17.0
4.0
TSLP-3-9
Infrastructure
RF drivers
Product name
BFP780
BFQ790
1)
OPN
At 1.9 GHz
At 2.7 GHz
Package
Gain
[dB]
OIP3
[dBm]
OP1dB
[dBm]
Gain
[dB]
OIP3
[dBm]
OP1dB
[dBm]
BFP780H6327XTSA1
18
35
23
14.4
35
23
SOT343
BFQ790H6327XTSA1
17
40
27
14.0
40
27
SOT89
1) Available as of Q4/2016
9
RF transistors – product portfolio
Infrastructure
Low-noise Si transistor up to 2.5 GHz
Product
name
SP No
BFP181
SP000011013
BFR181
OPN
Electrical characteristics
Package
VCEO
(max)
[V]
IC
(max)
[mA]
NFmin
(typ)
[dB]
Gmax
(typ)
[dB]
OIP3
OP1dB
f T (typ)
[dBm]
[dBm]
[GHz]
Ptot
(max)
[mW]
BFP181E7764HTSA1
12.0
20.0
0.9
21.0
16.5
-2.0
8.0
175.0
SOT143-4-1
SP000011047
BFR181E6327HTSA1
12.0
20.0
0.9
18.5
18.0
-1.0
8.0
175.0
SOT23
BFR181W
SP000750418
BFR181WH6327XTSA1
12.0
20.0
0.9
19.0
18.0
-1.0
8.0
175.0
SOT323
BFP182R
SP000011016
BFP182RE7764HTSA1
12.0
35.0
0.9
22.0
24.0
5.0
8.0
250.0
SOT143-4-1
BFP182W
SP000745176
BFP182WH6327XTSA1
12.0
35.0
0.9
22.0
24.0
5.0
8.0
250.0
SOT343
BFR182
SP000011051
BFR182E6327HTSA1
12.0
35.0
0.9
18.0
24.5
5.0
8.0
250.0
SOT23
BFR182W
SP000750420
BFR182WH6327XTSA1
12.0
35.0
0.9
19.0
25.0
5.0
8.0
250.0
SOT323
BFP183W
SP000745244
BFP183WH6327XTSA1
12.0
65.0
0.9
22.0
26.5
8.5
8.0
450.0
SOT343
BFR183
SP000011054
BFR183E6327HTSA1
12.0
65.0
0.9
17.5
27.0
9.0
8.0
450.0
SOT23
BFR35AP
SP000011060
BFR35APE6327HTSA1
15.0
45.0
1.4
16.0
24.0
9.0
5.0
280.0
SOT23
BFR92P
SP000011062
BFR92PE6327HTSA1
15.0
45.0
1.4
16.0
24.0
9.0
5.0
280.0
SOT23
BFS17P
SP000011073
BFS17PE6327HTSA1
15.0
25.0
3.5
12.7
21.5
10.0
1.4
280.0
SOT23
BFS17S
SP000750448
BFS17SH6327XTSA1
15.0
25.0
3.0
12.7
22.5
11.0
1.4
280.0
SOT363
BFS17W
SP000750450
BFS17WH6327XTSA1
15.0
25.0
3.5
12.7
22.5
11.0
1.4
280.0
SOT323
BFS481
SP000750462
BFS481H6327XTSA1
12.0
20.0
0.9
20.0
18.0
-1.0
8.0
175.0
SOT363
BFS483
SP000750464
BFS483H6327XTSA1
12.0
65.0
0.9
19.0
26.5
9.0
8.0
450.0
SOT363
BFR340F
SP000750426
BFR340FH6327XTSA1
6.0
10.0
1.15
16.5
13.0
-1.0
14.0
60.0
TSFP-3-1
BFR340L3
SP000013558
BFR340L3E6327XTMA1
6.0
10.0
1.15
17.5
12.5
-1.0
14.0
60.0
TSLP-3-7
BFR360F
SP000750428
BFR360FH6327XTSA1
6.0
35.0
1.0
15.5
24.0
9.0
14.0
210.0
TSFP-3-1
BFR360L3
SP000013561
BFR360L3E6765XTMA1
6.0
35.0
1.0
16.0
24.0
9.0
14.0
210.0
TSLP-3-1
BFP183
SP000011018
BFP183E7764HTSA1
12.0
65.0
0.9
22.0
26.5
8.5
8.0
250.0
SOT143
Low-noise Si transistor up to 5 GHz
Product
name
10
SP No
OPN
Electrical characteristics
VCEO
(max)
[V]
IC
(max)
[mA]
NFmin
(typ)
[dB]
Gmax
(typ)
[dB]
OIP3
OP1dB
[dBm]
Package
[dBm]
fT
(typ)
[GHz]
Ptot
(max)
[mW]
BFP405
SP000745254
BFP405H6327XTSA1
4.5
12.0
1.25
23.0
15.0
5.0
25.0
55.0
SOT343
BFP405F
SP000745258
BFP405FH6327XTSA1
4.5
12.0
1.25
22.5
14.0
0.0
25.0
55.0
TSFP-4-1
BFP410
SP000762244
BFP410H6327XTSA1
4.5
40.0
1.2
21.5
23.5
10.5
25.0
150.0
SOT343
BFP420
SP000745260
BFP420H6327XTSA1
4.5
35.0
1.1
21.0
22.0
12.0
25.0
160.0
SOT343
BFP420F
SP000745268
BFP420FH6327XTSA1
4.5
35.0
1.1
19.5
24.0
10.5
25.0
160.0
TSFP-4-1
BFP460
SP000745276
BFP460H6327XTSA1
4.5
50.0
1.1
17.5
27.5
11.5
22.0
200.0
SOT343
BFP520
SP000745280
BFP520H6327XTSA1
2.5
40.0
0.95
23.5
25.0
12.0
45.0
100.0
SOT343
BFP520F
SP000745282
BFP520FH6327XTSA1
2.5
40.0
0.95
22.5
23.5
10.5
45.0
100.0
TSFP-4-1
BFP540
SP000745288
BFP540H6327XTSA1
4.5
80.0
0.9
21.5
24.5
11.0
30.0
250.0
SOT343
BFP540ESD
SP000745298
BFP540ESDH6327XTSA1
4.5
80.0
0.9
21.5
24.5
11.0
30.0
250.0
SOT343
BFP540FESD
SP000745300
BFP540FESDH6327XTSA1
4.5
80.0
0.9
20.0
24.5
11.0
30.0
250.0
TSFP-4-1
BFR460L3
SP000014238
BFR460L3E6327XTMA1
4.5
50.0
1.1
16.0
27.0
11.5
22.0
200.0
TSLP-3-1
Ultra-low-noise SiGe:C transistors up to 12 GHz
Product
name
SP No
BFP640ESD
SP000785482
BFP640FESD
OPN
Electrical characteristics
VCEO
(max)
[V]
IC
(max)
[mA]
NFmin
(typ)
[dB]
Gmax
(typ)
[dB]
OIP3
OP1dB
[dBm]
BFP640ESDH6327XTSA1
4.1
50.0
0.65
25.0
27.0
SP000890034
BFP640FESDH6327XTSA1
4.1
50.0
0.55
26.5
BFP620
SP000745302
BFP620H7764XTSA1
2.3
80.0
0.7
BFP620F
SP000745304
BFP620FH7764XTSA1
2.3
80.0
BFP640
SP000745306
BFP640H6327XTSA1
4.0
50.0
BFP640F
SP000750404
BFP640FH6327XTSA1
4.0
50.0
Package
[dBm]
fT
(typ)
[GHz]
Ptot
(max)
[mW]
12.0
46.0
200.0
SOT343
26.0
11.5
46.0
200.0
TSFP-4-1
21.5
25.5
14.5
65.0
185.0
SOT343
0.7
21.0
25.0
14.0
65.0
185.0
TSFP-4-1
0.65
24.0
26.5
13.0
40.0
200.0
SOT343
0.65
23.0
27.5
13.5
40.0
200.0
TSFP-4-1
High-linearity Si-and SiGe:C transistors up to 6 GHz
Product
name
SP No
OPN
Electrical characteristics
VCEO
(max)
[V]
IC
(max)
[mA]
NFmin
(typ)
[dB]
Gmax
(typ)
[dB]
OIP3
OP1dB
[dBm]
Package
[dBm]
fT
(typ)
[GHz]
Ptot
(max)
[mW]
BFQ19S
SP000011042
BFQ19SE6327HTSA1
15.0
210.0
1.8
11.5
32.0
22.0
5.5
1.0
SOT89
BFR93A
SP000011066
BFR93AE6327HTSA1
12.0
90.0
1.5
14.5
30.0
15.0
6.0
300.0
SOT23
BFR93AW
SP000734402
BFR93AWH6327XTSA1
12.0
90.0
1.5
15.5
30.0
15.0
6.0
300.0
SOT323
BFR106
SP000011044
BFR106E6327HTSA1
15.0
210.0
1.8
13.0
32.0
22.0
5.0
700.0
SOT23
BFP193
SP000011024
BFP193E6327HTSA1
12.0
80.0
1.0
18.0
29.5
15.0
8.0
580.0
SOT143-4-1
BFP193W
SP000745248
BFP193WH6327XTSA1
12.0
80.0
1.0
20.5
29.5
15.0
8.0
580.0
SOT343
BFR193
SP000011056
BFR193E6327HTSA1
12.0
80.0
1.0
15.0
30.0
15.0
8.0
580.0
SOT23
BFR193F
SP000750424
BFR193FH6327XTSA1
12.0
80.0
1.0
19.0
29.0
14.8
8.0
580.0
TSFP-3-1
BFR193W
SP000734404
BFR193WH6327XTSA1
12.0
80.0
1.3
16.0
30.0
15.0
8.0
580.0
SOT323
BFR193L3
SP000013557
BFR193L3E6327XTMA1
12.0
80.0
1.0
19.0
29.0
15.0
8.0
580.0
TSLP-3-1
BFP196W
SP000745250
BFP196WH6327XTSA1
12.0
150.0
1.3
19.0
32.0
19.0
7.5
700.0
SOT343
BFR380F
SP000750444
BFR380FH6327XTSA1
6.0
80.0
1.1
13.5
29.0
17.0
14.0
380.0
TSFP-3-1
BFR380L3
SP000013562
BFR380L3E6327XTMA1
6.0
80.0
1.1
13.5
29.5
16.0
14.0
380.0
TSLP-3-1
BFP450
SP000745270
BFP450H6327XTSA1
4.5
100.0
1.25
15.5
29.0
19.0
24.0
450.0
SOT343
BFP650
SP000750406
BFP650H6327XTSA1
4.0
150.0
0.8
21.5
29.5
18.0
37.0
500.0
SOT343
BFP650F
SP000750408
BFP650FH6327XTSA1
4.0
150.0
0.8
21.5
31.0
17.5
42.0
500.0
TSFP-4-1
BFP196
SP000011027
BFP196E6327HTSA1
12.0
150.0
1.3
19.0
32.0
19.0
7.5
700.0
SOT143-4-1
11
PIN diodes
Operating at up to 3 GHz with high-voltage handling capabilities, Infineon Technologies PIN diodes are ideal for a
wide range of mobile communication and RF applications.
Their low loss and low distortion levels improve battery
life and quality in cellular and cordless phones.
resistance, diode capacitance and series inductance.
These inherent qualities are largely due to a state-of-theart planar diffusion process. Available in a range of
highly compact package options – including TSLP and the
leadless – significant board space savings can be made,
helping designers create smaller, lighter end-products.
Along with an outstanding RF performance, these diodes
simplify design-in thanks to their extremely low forward
Key features
Technical benefits
Customer benefits
››Low insertion loss (low rf)
››High isolation (low capacitance Ct)
››Low power consumption (low IF)
››Low level of high-frequency distortion
››Broad product portfolio
››Package miniaturization
››Single and dual configuration
››High linearity
››Fast switching time for Rx-Tx antenna
››Flexibility in circuit design with a focus on
››Low insertion loss and low dissipated
››Enhanced versatility in design conception
››Improved system efficiency
required parameters
››Easily adaptable to different applications/
switches
frequencies
power in Rx-Tx antenna switches
››Enhanced overall RF performance
Customer benefits – space saving
SOT23
12
SC79
››Small form factor: 70% of package
0.62 ±0.035
0.32 ±0.035
1.2 ±0.1
1.6 ±0.1
0.8 ±0.1
1.3 ±0.1
2.4 ±0.15
2.9 ±0.1
TSSLP-2-1, -2
profile increases design flexibility
››90% reduction of parasitics
››Improved RF performance at
insertion
Application example: single-antenna cordless phone
››Two single PIN diodes or one dual diode are at the core of
BPF
LNA
Rx
Transceiver
IC
SPDT
switch
Tx
ESD
diode
BPF
Buffer
amplifier
BPF
an SPDT switch
››Depending on the bias voltage, one of the diodes is in
“short”, another in “open” state, effectively connecting
either the Tx or Rx path to the antenna
››Infineon PIN diodes are ideal for building a switch which
simultaneously delivers a low insertion loss and high
isolation
Buffer amplifier
BFP450, BFP650, BFP750
Low-noise amplifier
BFP640, BFP740, BFP840
ANT SW
PIN diodes
BAR64-xx, BAR63-xx,
BAR90-xx
TVS diode
ESD108, ESD128,
ESD129
Infrastructure
PIN diodes – product portfolio
CT series
[pF]
Product name
> 50 pF
BA592
BAR14-1/15-1/16-1
BAR61
BAR64-03W, -02V
BAR64-02EL
BAR64-04/05/06/*07
BAR64-04W/05W/06W
BAR65-03W, -02V
BAR66
BAR67-02V
BAR67-04
BA885, BA595
BA895-02V
BAR88-02V
BAR88-02LRH1)
BAR89-02LRH1)
BAR90-02EL, -02ELS
BAR90-02LRH1)
BAR90-081LS
BAT18-04,-05
BAR50-03W, -02V
BAR50-02L
BAR63-03W, -02V
BAR63-02L
BAR63-04/05/06
BAR63-04W/05W/06W
< 50 pF
≤ 25 pF
1) Not recommended for new designs
D
D
D
D
Q
D
D
D
CT at 1 V
[pF]
Rf at 10 mA
[Ω]
τrr
Package
0.92
0.50
0.50
0.45
0.45
0.45
0.45
0.45
0.45
0.40
0.40
0.35
0.35
0.30
0.30
0.25
0.25
0.25
0.25
0.75
0.24
0.24
0.23
0.23
0.23
0.23
0.36
7.00
7.00
2.10
2.10
2.20
2.30
0.60
1.00
1.00
1.00
4.50
4.50
0.60
0.60
0.80
0.80
0.80
0.80
0.40
3.00
3.00
1.00
1.00
1.00
1.00
120 ns
1.0 µs
1.0 µs
1.55 µs
1.55 µs
1.55 µs
1.55 µs
80 ns
700 ns
700 ns
700 ns
1.6 µs
1.6 µs
0.5 µs
0.5 ms
0.8 µs
0.75 µs
0.75 µs
0.75 µs
120 ns
1.1 µs
1.1 µs
75 ns
75 ns
75 ns
75 ns
SOD323
SOT23
SOT143
SOD323, SC79
TSLP-2
SOT23, *SOT143
SOT323
SOD323, SC79
SOT23
SC79
SOT23
SOT23, SOD323
SC79
SC79
TSLP-2-RH
TSLP-2-RH
TSLP-2, TSSLP-2
TSLP-2-RH
TSSLP-8
SOT23
SOD323, SC79
TSLP-2
SOD323, SC79
TSLP-2
SOT23
SOT323
D = Double configuration
Q = Quad configuration
13
Schottky diodes
Infineon RF Schottky diodes are silicon low-barrier N-type
devices and, unlike other solutions available on the market, they come with various junction diode configurations
which can be used for highly sensitive power detector
circuits, and in sampling or mixer circuits.
A very low barrier height and very small forward voltage,
along with low junction capacitance, make this series
of devices an excellent choice as a detector function at fre­
quencies as high at 24 GHz.
Key features
Technical benefits
Customer benefits
››Low leakage current (low Rf)
››Low signal distortion level
››High efficiency / low losses
››Low power consumption
››Guard-ring protection on chip
››Broad product portfolio
››Package miniaturization
››Fast switching
››Tailored for low-/medium-power
››Flexibility in circuit design with a focus on
detection circuits
››Wide dynamic range in detector
applications
››Higher linearity and power handling
capability compared to integrated mixers
required parameters
››Easy adaptability to different
applications/frequencies
››Easy detector/mixer design due to width
››Enhanced versatility in design conception
››Improved system efficiency
Application example: 24GHz radar system
Double-balanced mixer
24 GHz
LNA
Buffer
amplifier
Balun
VCO
to baseband
Schottky diode
BAT24-02ELS
››Unbalanced, single-balanced or double-balanced mixer
topology depending on application requirements
››Balanced mixer offers good RF isolation
››Double-balanced mixer also provides good isolation
between LO, RF and IF
14
Target applications
››Wireless LAN and WiFi routers
››Mobile devices
››24 GHz radar system preferring discretes solutions
Schottky diodes – product portfolio
Product name
VR (max)
[V]
IF (max)
[mA]
CT
[pF]
VF at 1 mA
[mV]
Package
BAT15-02EL/-02ELS
4
110
0.26
230
TSLP-2/TSSLP-2
BAT15-03W
4
110
0.26
230
SOD323
BAT15-04W
D
4
110
0.26
230
SOT323
BAT15-05W
D
4
110
0.26
230
SOT323
BAT15-04R
D
4
110
0.26
230
SOT23
BAT15-099/-099LRH1)
D
4
110
0.26
230
SOT143/TSLP-4
BAT15-099R
Q
4
110
0.38
230
SOT143
4
130
0.55
340
SOT23
BAT17
BAT17-04/W
D
4
130
0.55
340
SOT23/SOT323
BAT17-05
D
4
130
0.55
340
SOT23
BAT17-05W
D
4
130
0.55
340
SOT323
BAT17-06W
D
4
130
0.55
340
SOT323
BAT17-07
D
4
130
0.75
340
SOT143
BAT24-02LS
4
110
0.21
230
TSSLP
BAT62
40
20
0.35
440
SOT143
BAT62-02L/-02LS
40
120
0.35
440
TSLP-2/TSSLP-2
BAT62-02V/-03W
40
20
0.35
440
SC79/SOD323
BAT62-07L4
D
40
20
0.35
440
TSLP-4
BAT62-07W
D
40
20
0.35
440
SOT343
3
100
0.65
190
SC79
3
100
0.65
190
SOT343
8
130
0.75
318
SOT23
BAT63-02V
BAT63-07W
D
BAT68
BAT68-04/W
D
8
130
0.75
318
SOT23/SOT323
BAT68-06/W
D
8
130
0.75
318
SOT23/SOT323
1) Not recommended for new designs
D = Double configuration
Q = Quad configuration
15
RF diodes portfolio by package
PIN diodes
Antenna switches
SOD323
BAR50-03W
BAR63-03W
BAR64-03W
BAR65-03W
SC79
BAR50-02V
BAR63-02V
BAR64-02V
BAR65-02V
BAR67-02V
SOT23
BAR63-04
BAR63-05
BAR63-06
BAR64-04
BAR64-05
BAR64-06
BAR67-04
SOT143
BAR64-07
SOT323
TSLP-2
BAR63-04W
BAR63-05W
BAR63-06W
BAR63-04W
BAR63-05W
BAR63-06W
BAR88-02V
TSSLP-2
TSSLP-8
BAR50-02L
BAR63-02L
BAR64-02EL
BAR90-02EL
BAR90-02ELS
BAR90-081LS
BAR88-02LRH
BAR89-02LRH
BAR90-02LRH
TSSLP-2
RF attenuators
BA595
BA885-02V
BA885
BAR14-1
BAR15-1
BAR16-1
BAR61
Recommended for new designs
Not recommended for new designs
Schottky diodes
Mixer
SOD323
SC79
BAT15-03W
SOT23
SOT143
SOT323
TSLP-2
BAT15-04R
BAT17
BAT17-04
BAT17-05
BAT15-099
BAT17-06W
BAT15-04W
BAT15-05W
BAT17-04W
BAT17-05W
BAT17-06W
BAT15-02EL
BAT15-02ELS
BAT15-099
BAT62-02V
BAT63-02V
Recommended for new designs
Not recommended for new designs
16
BAT68
BAT68-04
BAT68-06
BAT62
BAT24-02LS
BAT15-099LRH
Power detector
BAT62-03W
TSLP
BAT62-07W
BAT63-07W
BAT68-04W
BAT68-06W
BAT62-02L
BAT62-02LS
Infineon support for RF discretes
Useful links and helpful information
Further information, datasheets and documents
Evaluationboards
www.infineon.com/rftransistors
www.infineon.com/rfevalboards
Simulation Models
www.infineon.com/rfdiodes
www.infineon.com/rfcomponentlibraries
Videos
www.infineon.com/rf
www.infineon.com/mediacenter
Simulation
17
Cross reference list
RF transistors
Product name
Manufacturer product
Manufacturer
Product family
Product name
Manufacturer product
Manufacturer
Product family
BFP181
BFR505/T1)
NXP
RF Transistors
BFP182W
2SC50122)/2SC50152)
Renesas
RF Transistors
BFP182
BFU520X2)
NXP
RF Transistors
BFP183
2SC40942)/2SC4957
Renesas
RF Transistors
BFP182R
BFU520XR
NXP
RF Transistors
BFP193
2)
2SC4093 /2SC5455
Renesas
RF Transistors
BFP182W
BFU520W
NXP
RF Transistors
BFP193W
2SC42272)/2SC50112)
Renesas
RF Transistors
BFP183
BFU530X
NXP
RF Transistors
BFP196
2SC40931) 2)/2SC4227
Renesas
RF Transistors
BFP183W
BFU530W
NXP
RF Transistors
BFP196W
2SC40932)
Renesas
RF Transistors
BFP193
BFG540/X
NXP
RF Transistors
BFR35AP
2SA1977
Renesas
RF Transistors
BFP193W
BFG540W/XR
NXP
RF Transistors
BFR93AW
2SC4226
Renesas
RF Transistors
BFP196
BFG540/X
NXP
RF Transistors
BFR181
2SC55081)
Renesas
RF Transistors
BFP196W
BFG540W/XR
NXP
RF Transistors
BFR181W
2SC55081)/2SC50101)
Renesas
RF Transistors
BFR35AP
BFT25A
NXP
RF Transistors
BFR182W
2SC50071)
Renesas
RF Transistors
BFR93A
BFT93A
NXP
RF Transistors
BFR183W
1)
2SC5007
Renesas
RF Transistors
BFR93AW
BFT93W
NXP
RF Transistors
BFR193F
2SC50061)
Renesas
RF Transistors
BFR181
BFG505XN
NXP
RF Transistors
BFQ19S
2SC3357/4095/4536/4703
Renesas
RF Transistors
BFR182
BFU520A
NXP
RF Transistors
BFR340F
2SC56061)
Renesas
RF Transistors
BFR182W
BFS520W/PRF947
NXP
RF Transistors
BFR360F
1)
2SC5606
Renesas
RF Transistors
BFR183
BFU530A
NXP
RF Transistors
BFP420
2SC55082)
Renesas
RF Transistors
BFR183W
BFU530W/PRF947
NXP
RF Transistors
BFP450
2SC55092)
Renesas
RF Transistors
BFR193
BFU550A
NXP
RF Transistors
BFS481
2SC56061) 2)
Renesas
RF Transistors
NXP
RF Transistors
BFS483
2SC54551) 2)
Renesas
RF Transistors
2)
BFS17P
BFS17A
BFR340F
BFG325XR
NXP
RF Transistors
BFR750EL3
2SC5509(NE663M04)
Renesas
RF Transistors
BFP405
BFG410W
NXP
RF Transistors
BFP183W
2SC5087
Toshiba
RF Transistors
BFP420
BFG425W
NXP
RF Transistors
BFP193
2SC5087R
Toshiba
RF Transistors
BFP450
BFG21W/BFG480W
NXP
RF Transistors
BFP193W
2SC4842
Toshiba
RF Transistors
BFP540
1)
BFG480W /BFU660F
NXP
RF Transistors
BFP196W
2SC4842
Toshiba
RF Transistors
BFP540ESD
BFG480W1)/BFU660F
NXP
RF Transistors
BFR35AP
MT3S19R
Toshiba
RF Transistors
BFP620
BFU610F
NXP
RF Transistors
BFR93AW
MT3S16U
Toshiba
RF Transistors
BFP640
BFU630F
NXP
RF Transistors
BFR106
MT3S113/MT3S1112)
Toshiba
RF Transistors
BFP640ESD
BFU630F
NXP
RF Transistors
BFR181W
2SC5090
Toshiba
RF Transistors
BFP650
BFU660F
NXP
RF Transistors
BFR182
2SC5064
Toshiba
RF Transistors
BFP720
BFU710F
NXP
RF Transistors
BFR182W
2SC5065
Toshiba
RF Transistors
BFP720ESD
BFU710F
NXP
RF Transistors
BFR183
2SC5084
Toshiba
RF Transistors
BFP740
BFU725F/BFU730F
NXP
RF Transistors
BFR183W
2SC5085
Toshiba
RF Transistors
BFP740ESD
BFU725F/BFU730F
NXP
RF Transistors
BFR193
2SC5084
Toshiba
RF Transistors
BFP760
BFU760F
NXP
RF Transistors
BFR193F
2SC50861)
Toshiba
RF Transistors
BFR740EL3
BFU730LX
NXP
RF Transistors
BFR193W
2SC5085
Toshiba
RF Transistors
BFP840ESD
BFU710F
NXP
RF Transistors
BFP405
MT4S34U
Toshiba
RF Transistors
BFP843
BFU730F
NXP
RF Transistors
BFP420
MT4S200U
Toshiba
RF Transistors
BFR843EL3
BFU730LX
NXP
RF Transistors
BFP450
MT4S24U1)/MT4S03BU
Toshiba
RF Transistors
BGB707L7ESD
BGU6102
NXP
RF Transistors
BFP540ESD
MT4S300U/MT4S301U
Toshiba
RF Transistors
1)
1) In a different package
2) In a different pinning
18
2)
RF diodes
Product name
Manufacturer
product
Manufacturer
Product family
Product name
Manufacturer
product
Manufacturer
Product family
BAT15-02EL
HSMS286x
Avago
RF Schottky Diodes
BAR64-03W
BAP64-03
NXP
RF PIN Diodes
BAT15-02ELS
HSMS286x
Avago
RF Schottky Diodes
BAR64-04
BAP64-04
NXP
RF PIN Diodes
BAT15-02LRH
HSMS286x
Avago
RF Schottky Diodes
BAR64-04W
BAP64-04W
NXP
RF PIN Diodes
BAT15-02LS
HSMS286x
Avago
RF Schottky Diodes
BAR64-05
BAP64-05
NXP
RF PIN Diodes
BAT15-03W
HSMS286x
Avago
RF Schottky Diodes
BAR64-05W
BAP64-05W
NXP
RF PIN Diodes
BAT15-04W
HSMS286x
Avago
RF Schottky Diodes
BAR64-06
BAP64-06
NXP
RF PIN Diodes
BAT15-03W
1PS76SB17
NXP
RF Schottky Diodes
BAR64-06W
BAP64-06W
NXP
RF PIN Diodes
BAT17
BAT17
NXP
RF Schottky Diodes
BAR65-02V
BAP65-02
NXP
RF PIN Diodes
BAT17-04
PMBD353
NXP
RF Schottky Diodes
BAR65-03W
BAP65-03
NXP
RF PIN Diodes
BAT62
BAS40-07
NXP
RF Schottky Diodes
BAR67-02V
BAP51-02
NXP
RF PIN Diodes
BAT62-02V
1PS79SB30
NXP
RF Schottky Diodes
BAR88-02LRH
BAP65LX
NXP
RF PIN Diodes
BAT63-02V
1PS76SB21
NXP
RF Schottky Diodes
BAR88-02V
BAP65-02
NXP
RF PIN Diodes
BAT68
1PS70SB82
NXP
RF Schottky Diodes
BAR89-02LRH
BAP142LX
NXP
RF PIN Diodes
BAT68-04W
1PS70SB85
NXP
RF Schottky Diodes
BAR14-1
1SV251
Onsemi
RF PIN Diodes
BAT68-06
1PS70SB86
NXP
RF Schottky Diodes
BAR64-04
1SV251
Onsemi
RF PIN Diodes
BAT15-04W
BAT54SW
ST Microelectronics
RF Schottky Diodes
BAR64-04W
1SV264
Onsemi
RF PIN Diodes
BAT17
BAT17
ST Microelectronics
RF Schottky Diodes
BAR65-03W
MMVL3401
Onsemi
RF PIN Diodes
BAT17-04
BAS70-04
ST Microelectronics
RF Schottky Diodes
BA885
BA779-G
Vishay
RF PIN Diodes
S392D-G
Vishay
RF PIN Diodes
BAR64V-05W
Vishay
RF PIN Diodes
BAT17-04W
BAT54SW
ST Microelectronics
RF Schottky Diodes
BAR14-1
BAT17-04W
BAS70-04W
ST Microelectronics
RF Schottky Diodes
BAR64-05W
BAT17-05
BAS70-05
ST Microelectronics
RF Schottky Diodes
BAT17-05W
BAS70-05W
ST Microelectronics
RF Schottky Diodes
BAT17-06
BAS70-06
ST Microelectronics
RF Schottky Diodes
BAT17-06W
BAS70-06W
ST Microelectronics
RF Schottky Diodes
BAT15-099
SMS3926-023
Toshiba
RF Schottky Diodes
BAT17
JDH2S01FS
Toshiba
RF Schottky Diodes
BAT17-04
JDH2S01FS
Toshiba
RF Schottky Diodes
BAT17-04W
JDH2S01FS
Toshiba
RF Schottky Diodes
BAT17-07
JDH2S01FS
Toshiba
RF Schottky Diodes
BAT68-06
1SS271
Toshiba
RF Schottky Diodes
BAT64 1SS294
Toshiba
RF Schottky Diodes
BAT68-06
1SS295
Toshiba
RF Schottky Diodes
BAT15-03W
1SS315
Toshiba
RF Schottky Diodes
BAT15-02EL
JDH2S01FS
Toshiba
RF Schottky Diodes
BAT15-02EL
JDH2S02FS
Toshiba
RF Schottky Diodes
BAT15-02ELS
JDH2S02SL
Toshiba
RF Schottky Diodes
BA595
BAP70-03
NXP
RF Pin Diodes
BAR50-02V
BAP50-02
NXP
RF Pin Diodes
BAR63-02L
BAP142LX
NXP
RF Pin Diodes
BAR64-02V
BAP64-02
NXP
RF Pin Diodes
19
Where to buy
Infineon distribution partners and sales offices:
www.infineon.com/WhereToBuy
Service hotline
Infineon offers its toll-free 0800/4001 service hotline as one central number,
available 24/7 in English, Mandarin and German.
››Germany ..................... 0800 951 951 951 (German/English)
››China, mainland ........ 4001 200 951 (Mandarin/English)
››India ........................... 000 800 4402 951 (English)
››USA ............................. 1-866 951 9519 (English/German)
››Other countries .......... 00* 800 951 951 951 (English/German)
››Direct access .............. +49 89 234-0 (interconnection fee, German/English)
*Please note: Some countries may require you to dial a code other than “00” to access this international number.
Please visit www.infineon.com/service for your country!
Mobile product catalog
Mobile app for iOS and Android.
www.infineon.com
Published by
Infineon Technologies AG
81726 Munich, Germany
© 2016 Infineon Technologies AG.
All rights reserved.
Please note!
THIS DOCUMENT IS FOR INFORMATION PURPOSES ONLY AND
ANY INFORMATION GIVEN HEREIN SHALL IN NO EVENT BE
REGARDED AS A WARRANTY, GUARANTEE OR DESCRIPTION OF
ANY FUNCTIONALITY, CONDITIONS AND/OR QUALITY OF OUR
PRODUCTS OR ANY SUITABILITY FOR A PARTICULAR PURPOSE.
WITH REGARD TO THE TECHNICAL SPECIFICATIONS OF OUR
PRODUCTS, WE KINDLY ASK YOU TO REFER TO THE RELEVANT
PRODUCT DATA SHEETS PROVIDED BY US. OUR CUSTOMERS AND
THEIR TECHNICAL DEPARTMENTS ARE REQUIRED TO EVALUATE
THE SUITABILITY OF OUR PRODUCTS FOR THE INTENDED
APPLICATION.
WE RESERVE THE RIGHT TO CHANGE THIS DOCUMENT AND/OR
THE INFORMATION GIVEN HEREIN AT ANY TIME.
Order number: B132-I0319-V1-7600-EU-EC-P
Date: 06 / 2016
Additional information
For further information on technologies, our products, the
application of our products, delivery terms and conditions
and/or prices, please contact your nearest Infineon Technologies
office (www.infineon.com).
Warnings
Due to technical requirements, our products may contain
dangerous substances. For information on the types in question,
please contact your nearest Infineon Technologies office.
Except as otherwise explicitly approved by us in a written
document signed by authorized representatives of Infineon
Technologies, our products may not be used in any life-­
endangering applications, including but not limited to medical,
nuclear, military, life-critical or any other applications where a
failure of the product or any consequences of the use thereof
can result in personal injury.